AT512766A1 - Hydrodynamic screw - Google Patents

Abstract

The invention relates to a hydrodynamic screw (1) with a single- or multi-start working screw, which is connected to a working screw (2) surrounding jacket tube (4) for holding the working water, rotatably mounted, wherein the jacket tube (4) has a liquid inlet and a deeper having lying liquid drain. At least the lower-lying mounting of the hydrodynamic screw (1) takes place through a belt (5), which encircles the jacket tube (4) and wraps above the tubular casing (4) a rotatable suspension (6) from above, this suspension (6) simultaneously serves as a power take-off (7).

Description

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The invention relates to a hydrodynamic screw with a single or multi-start working worm, which is rotatably mounted connected to a surrounding the working screw jacket tube for holding the working water, wherein the jacket tube has a liquid inlet and a deeper liquid drain.

Hydrodynamic screws generally consist of an obliquely sloping tube or trough in which a helically wound helical spiral, which is usually formed by a correspondingly bent sheet-metal strip runs.

If the spiral screw is rotatable relative to the pipe or trough, the hydrodynamic screw is the same structure as a conventional screw conveyor. In the application as a hydrodynamic screw above water is filled, this causes by its gravitational torque on the spiral screw, making it rotate and with each thread a small pool of water promotes down. Height energy of the water is converted into rotational energy of the spiral screw, which in turn can drive a generator for the generation of electrical energy.

In the special form of water screws, as disclosed for example in EP 2 369 168 A2, the spiral screw runs in a tube and spiral screw and tube are fixed to each other. Rotation of the spiral also causes rotation of the entire tube. (The construction is often used in water parks and serves to raise water from a pond below.)

According to the patent AT 509209 Bl a two-shell construction of the hydrodynamic screw is proposed, wherein the inner spiral has a different winding sense than the outer one. Thus, one spiral can act as a turbine, while the other spiral can act as a fish-friendly fish ladder.

A disadvantage of known hydrodynamic screws is that the lower bearing of the hydrodynamic screw in a water-surrounded ♦ ···································································································. * · · * ··· • ♦ · · · · * ♦ ·· · 2

Area is located and thus more expensive than a warehouse, which is located in the dry. Furthermore, a submerged bearing is maintenance-prone and more difficult to access.

It is therefore an object of the present invention to provide a hydrodynamic screw, which eliminates the above-mentioned disadvantages of the lower bearing and thus substantially reduces the maintenance and the cost of manufacturing and operating a hydrodynamic screw.

This object is achieved in that at least the lower bearing of the hydrodynamic screw takes place through a belt looping around the casing from below, which wraps above the casing tube a rotatable suspension from above, said suspension also serves as a power take-off. By this feature, the jacket tube is supported against forces down and makes a lower bearing, as is known in the art is superfluous. The camp also serves as a power take-off, which is easily accessible at the top of the hydrodynamic screw for any maintenance. A power take-over, for example, a sprocket on the casing pipe would either require a further bearing at the lower end of the hydrodynamic screw when the sprocket is freely rotatable, or the sprocket would have to be supported on the underside of the casing tube with corresponding bearing rollers, making them again difficult to access and bad to are waiting. At the output, a translation can be arranged, which translates the rotational movement of the hydrodynamic screw to higher speeds, as they are advantageous for a generator connected thereto. In general, the belt on the casing pipe can attack in a longitudinal region, which is not in the operating state in the water.

A further feature of the invention is that a plurality of belt encircling the casing tube from below are provided for the storage of the hydrodynamic screw, wherein the belts are arranged in the longitudinal direction of the hydrodynamic screw at regular intervals. In the case of a very long jacket tube, several such belts can thus be used over the length of the tube,. # t ··················································································································································································································

According to a further feature of the invention it is provided that on the jacket tube means for guiding the / the belt, such as outwardly curved or cambered treads, beads or the like, are provided. Outwardly curved treads are preferably used because the belt tends to run up to the highest point during operation.

Furthermore, it is a feature of the invention that the jacket tube is additionally secured against transverse forces acting on the longitudinal direction by lateral supports with rollers, wherein the rollers are arranged in a portion which lies outside of the liquid in operation This, especially in the lower longitudinal region of the Casing tube arranged, lateral supports with rollers prevent swinging the hydrodynamic screw to the side.

The invention will now be described with reference to the accompanying drawings. 1 shows a longitudinal section through a hydrodynamic screw according to the invention shown schematically.

The hydrodynamic screw 1 shown in FIG. 1 has a first helical spiral, which serves as a working screw 2 and is fixedly connected to the jacket tube 4. In the middle of a second spiral screw 3 runs with opposite sense of winding to the working screw 2. This second spiral screw 3 serves as a fish ladder and is firmly connected to the working screw 2, so that it is driven by this. The hydrodynamic screw 1 is mounted in such a way that the upper open end of the first helical spiral lies below an upper fluid inlet 12. The lower lower end of the water-power screw 1 is arranged so that the second spiral screw protrudes into the lower-lying liquid outlet 11 and thus receives liquid from the liquid outlet 11 and transported upwards. The upper bearing of the hydrodynamic screw 1 is realized by a conventional journal bearing 10. * * # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # · # · * «·· ♦ ·· 4

The lower bearing is accomplished by a belt 5 looping around the casing 4 from below, which wraps around a rotatable suspension 6, for example a disk, from above. The disc is rotatably mounted and is subsequently connected as a power take-off 7 via a gear 8 with a generator 9. The belt 6 is located in a section of the hydrodynamic screw 1, which is not in operation in the water. All parts essential for maintenance are arranged above the hydrodynamic screw and thus easily accessible.

In a particularly long version of a hydrodynamic screw further belt 6 can be arranged along the jacket tube 4.

Vienna, on the 13th of January. 2012:

Claims (4)

Dr. Müllner Dipl.-Ing. Katschjcrk & OEQ, Patent Attorney Weihburggasse 9, Po ^ tfecli 9 53, * ΑΪΤ < Σ14lWIElsl, Austria Telephone: t +43 (1) 512 24 81 / Fax: a + 43 (1) 513 78 81 / E-Mail: ® repatent @ aon.at Account (PSK): 1480 708 BLZ 60000 BIC: OPSKATWW IBAN: AT19 6000 0000 0148 07081 480 708 SP / 45429 Walter ALBRECHT 3283 St. Anton / Jeßnitz (AT) Claims: 1. Hydropower screw (1) with a - or multi-start working screw, which is connected to a working screw (2) surrounding jacket tube (4) for holding the working water, rotatably mounted, wherein the jacket tube (4) has a liquid inlet and a deeper liquid drain, characterized in that at least the deeper lying support of the hydrodynamic screw (1) by a jacket tube (4) from below the belt looping (5), which above the casing tube (4) a rotatable suspension (6) wraps around from above, said suspension (6) at the same time as a Power output (7) di ent. 2. A hydrodynamic screw according to claim 1, characterized in that a plurality of the casing tube (4) from below the belt (5) for supporting the hydrodynamic screw (1) are provided, wherein the belt (5) are preferably arranged in the longitudinal direction of the hydrodynamic screw at regular intervals , 3. hydrodynamic screw according to claim 1 or 2, characterized in that the jacket tube (4) means for guiding the belt (5), such as outwardly curved or cambered running surfaces, beads or the like are provided. Hydrodynamic screw according to one of claims 1 to 3, characterized in that the jacket tube (4) is additionally secured against transverse forces acting on the longitudinal direction by lateral supports with rollers, wherein the rollers are arranged in a section which is outside the liquid in operation.